annular structure

简明释义

环形构造;

英英释义

例句

1.The annular structure of the tire helps distribute weight evenly for better performance.

轮胎的环形结构有助于均匀分配重量，以提高性能。

2.During the experiment, the scientists observed the annular structure of the liquid in the centrifuge.

在实验过程中，科学家观察到了离心机中液体的环形结构。

3.The geologist studied the annular structure of the volcanic crater to understand its formation.

地质学家研究了火山口的环形结构以了解其形成过程。

4.In astronomy, the annular structure of a solar eclipse creates a unique visual phenomenon.

在天文学中，日食的环形结构创造了一种独特的视觉现象。

5.The engineer designed an annular structure to improve the efficiency of the water flow in the pipeline.

工程师设计了一个环形结构以提高管道中水流的效率。

作文

In the realm of science and engineering, the term annular structure refers to a specific geometric configuration characterized by a ring-like shape that surrounds a central void or core. This concept is prevalent in various fields, including architecture, mechanical engineering, and even geology. Understanding the significance of annular structures can provide insights into their applications and benefits. For instance, in architecture, an annular structure can be seen in the design of certain buildings where circular forms are utilized to create aesthetic appeal while maintaining structural integrity. The use of such shapes can help distribute weight evenly, thereby enhancing stability and durability. Moreover, in mechanical engineering, annular structures play a crucial role in the design of components such as bearings and seals. These components often require a circular arrangement to function effectively, allowing for smooth motion and reduced friction. The annular shape helps contain lubricants, which are vital for minimizing wear and tear on moving parts. In this context, recognizing the importance of annular structures can lead to improved designs and more efficient machinery. Geologically, annular structures can be found in formations such as rings of sedimentary rocks or volcanic craters. These natural formations often reveal important information about the Earth's history and the processes that shaped its surface. Studying these annular structures can help geologists understand past climatic conditions, tectonic activities, and even the evolution of ecosystems over millions of years. The versatility of annular structures is evident in their widespread usage across different domains. For example, in the field of astronomy, planets and moons often exhibit annular structures in their rings, which are composed of ice, dust, and other particles. The study of these celestial annular structures can provide valuable data regarding the formation and evolution of planetary systems. Furthermore, the concept of annular structures extends beyond physical forms; it can also be applied in theoretical models and simulations. In mathematics and physics, researchers often utilize annular structures to analyze complex systems, such as fluid dynamics and wave propagation. By modeling these systems with annular geometries, scientists can gain a deeper understanding of the underlying principles governing their behavior. In conclusion, the annular structure is a multifaceted concept that transcends various disciplines, from architecture and engineering to geology and astronomy. Its unique ring-like configuration offers numerous advantages, including enhanced stability, efficient functionality, and valuable insights into natural phenomena. By appreciating the significance of annular structures, we can foster innovation and progress in both practical applications and scientific research.

在科学和工程领域，术语环形结构指的是一种特定的几何配置，其特征是围绕中心空隙或核心的环状形状。这个概念在建筑、机械工程甚至地质学等多个领域都很普遍。理解环形结构的重要性可以提供对其应用和好处的深入见解。例如，在建筑中，某些建筑设计中可以看到环形结构，其中使用圆形形式来创造美学吸引力，同时保持结构完整性。这种形状的使用可以帮助均匀分配重量，从而增强稳定性和耐久性。此外，在机械工程中，环形结构在轴承和密封件等组件的设计中发挥着至关重要的作用。这些组件通常需要圆形排列以有效工作，从而实现平稳运动和减少摩擦。环形形状有助于保持润滑剂，这对于最小化运动部件的磨损至关重要。在这种背景下，认识到环形结构的重要性可以导致更好的设计和更高效的机械。在地质学上，环形结构可以在沉积岩环或火山口等地质构造中找到。这些自然形成的结构常常揭示出关于地球历史和塑造其表面的过程的重要信息。研究这些环形结构可以帮助地质学家了解过去的气候条件、构造活动，甚至数百万年来生态系统的演变。环形结构的多功能性在其在不同领域广泛应用中显而易见。例如，在天文学领域，行星和卫星通常在其环中表现出环形结构，这些环由冰、尘埃和其他颗粒组成。研究这些天体环形结构可以提供有关行星系统形成和演化的宝贵数据。此外，环形结构的概念超越了物理形式；它也可以应用于理论模型和模拟。在数学和物理学中，研究人员经常利用环形结构来分析复杂系统，如流体动力学和波动传播。通过用环形几何模型化这些系统，科学家可以更深入地理解支配其行为的基本原理。总之，环形结构是一个多方面的概念，跨越了多个学科，从建筑和工程到地质学和天文学。其独特的环状配置提供了许多优势，包括增强的稳定性、高效的功能性以及对自然现象的宝贵见解。通过欣赏环形结构的重要性，我们可以促进实际应用和科学研究中的创新和进步。